Shape-dependent structural and magnetic properties of Fe nanoparticles studied through simulation methods

Rida Essajai; Younes Benhouria; Abdeljalil Rachadi; Mbarek Qjani; Ahmed Mzerd; Najem Hassanain

doi:10.1039/c9ra03047f

Shape-dependent structural and magnetic properties of Fe nanoparticles studied through simulation methods

RSC Adv. 2019 Jul 16;9(38):22057-22063. doi: 10.1039/c9ra03047f. eCollection 2019 Jul 11.

Authors

Rida Essajai¹, Younes Benhouria², Abdeljalil Rachadi³, Mbarek Qjani⁴, Ahmed Mzerd¹, Najem Hassanain¹

Affiliations

¹ Group of STCE-Energy Research Center (ERC), Faculty of Science, Mohammed V University B. P. 1014 Rabat Morocco rida.essajai@gmail.com.
² Laboratory of Physics of Materials and Modeling of Systems, (LP2MS), Unit Associated with CNRST-URAC 08, Faculty of Science, University Moulay Ismail, Physics Department B. P. 11201 Meknes Morocco.
³ Laboratory of Condensed Matter and Interdisciplinary Sciences (LaMScI), Faculty of Science, Mohammed V University B. P. 1014 Rabat Morocco.
⁴ LCMP, Faculty of Sciences, Chouaïb Doukkali University El Jadida Morocco.

Abstract

Studying the shape-dependent structural and magnetic properties of nanoparticles is one of the most necessary scientific challenges in order to match these nano-objects for adequate applications. In this research paper, the shape effect of iron nanoparticles (FeNPs) on structural and magnetic properties was investigated on the basis of a combination of Molecular Statics (MS) and Monte Carlo (MC) simulations. To this end, three kinds of FeNP shapes (such as spherical, planar and rod) in an equal volume have been considered. The coordination number distribution of FeNPs obtained from the data extracted by MS simulations was exploited for performing MC simulations on the familiar Ising model. The numerical findings obtained showed that the structural stability, the Curie temperature as well as the shape of the hysteresis loop are correlated with the FeNP shape.